KR101490805B1 - Integrated sensor module - Google Patents

Abstract

The present invention is an integrated sensor module equipped on a pipe for cold-hot water, and includes: a module body of a pipe shape having a passage where the fluid flows inside; a check valve inserted in the module body to prevent back flow of the fluid; and a coupling unit installed respectively on the upper and bottom end of the module body, and detachably coupling with the pipe. Therefore, workability can be improved by simplifying an installation work by integrating the check valve with a flow rate sensor and a temperature sensor as a single set structure; and economic efficiency can be improved by making the integrated form not to require each components to be manufactured separately to reduce the costs of manufacturing the components.

Description

[0001] INTEGRATED SENSOR MODULE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an integrated sensor module, and more particularly, to an integrated sensor module used for cold / hot water.

Generally, a cold / hot water supply system that supplies cold water and hot water to a demand place such as an apartment, an office hotel, a hotel, a residential house, etc. includes a cold water supply pipe for directly supplying cold water to each customer, , And the heated hot water is supplied to the cold / hot water integrated type faucet of the respective destination, and the cold / hot water is mixed and discharged by the operation of the faucet handle.

On the other hand, in order to constitute the piping line for switching to various modes according to the temperature of the hot water and for sensing the flow of the cold water flowing and igniting the boiler, the flow rate sensor and the temperature sensor Backflow prevention valves and the like are mostly used. As an example of the technology related to the cold / hot water supply system, a heating supply system having a heating water automatic flow control distribution device of Patent Document 10-2014-0108390 has been disclosed.

However, since the above-mentioned conventional cold / hot water supply system is composed of independent components such as the flow rate sensor, the temperature sensor, the check valve, and various sensors and the flow valve, it is troublesome and troublesome In addition, there is a problem that the cost is increased and the economical efficiency is lowered.

An object of the present invention is to provide an integrated type sensor module which can improve productivity and economy by simplifying the installation work by forming the valve and each sensor into a single unit structure so as to improve the workability and economical efficiency .

The present invention relates to an integrated type sensor module provided on a piping for cold / hot water, comprising: a module main body in which a flow path of a fluid flows in a tubular shape; A check valve inserted into the module body to prevent the fluid from flowing backward; And a fastening portion provided at an upper end portion and a lower end portion of the module main body and detachably coupled to the piping.

The integrated sensor module according to the present invention provides the following effects.

First, since the check valve, the flow rate sensor, and the temperature sensor are integrally formed, the installation work can be simplified and the workability can be improved.

Secondly, it can be integrally formed to reduce the cost of parts production, thereby improving the economical efficiency.

Third, the structure of the module body allows the flow sensor, temperature sensor and check valve to be selectively combined, so that it is not necessary to replace all the parts during repair, Thereby reducing costs.

1 is a perspective view of an integrated sensor module according to an embodiment of the present invention.
Fig. 2 is a perspective view showing the check valve of Fig. 1;
3 is a front sectional view showing the internal structure of the check valve of FIG. 2;
Figure 4 is a bottom view of the check valve of Figure 2;
Figures 5 and 6 are cross-sectional views showing the operation of the check valve of Figure 2;
7 is a front view showing the flow sensor unit of Fig.
FIG. 8 is a cross-sectional view showing a nozzle member provided in the module body of FIG. 1;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1, an integrated sensor module 700 according to an embodiment of the present invention includes a module body 100, a check valve 200, a flow sensor unit 300 A temperature sensor unit 400, and a coupling unit 500.

The module main body 100 is provided on a cold / hot water pipe (not shown) in a tubular shape having a flow path 101 through which the fluid flows, so that fluid flowing through the pipe can flow through the flow path 101 Respectively.

The module body 100 further includes a flow sensor fitting portion 110 communicating with the flow passage 101 and fitted to the flow sensor portion 300 on one side of the outer periphery of the flow sensor fitting portion 110, And a temperature sensor fitting portion 120 in which the temperature sensor portion 400 is fitted to the outer peripheral side so as to be spaced apart from each other.

The flow sensor fitting portion 110 and the temperature sensor fitting portion 120 are formed in a tubular shape protruding outward from the module body 100 and are connected to the flow sensor portion 300 and the temperature sensor portion 400 can be easily combined.

The flow sensor fitting portion 110 is detachably coupled to the sensor body 320 of the flow sensor portion 300 by a coupling means 350. In detail, the coupling means 350 includes a first flange portion 351 extending from the exposed end of the flow sensor fitting portion 110, and a second flange portion 351 having a shape corresponding to the first flange portion 351 A second flange portion 352 provided integrally with the sensor body 320 to be described later and a fastening portion (not shown) for fastening the first flange portion 351 and the second flange portion 352 to each other do. Here, detailed configurations of the first flange portion 351 and the second flange portion 352 are similar to those of a flange portion that is connected to a known pipe, so a detailed description thereof will be omitted. Can be applied.

The temperature sensor fitting part 120 may be fitted into the temperature sensor part 400 so that the temperature sensor part 400 is closely contacted with the inside and may be hermetically fitted or detachably fitted to the inside as shown in the figure. It is needless to say that the flow sensor fitting portion 110 and the temperature sensor fitting portion 120 may be variously modified in accordance with the structure and shape of the flow sensor portion 300 and the temperature sensor portion 400, respectively. In addition, in the drawing, the coupling means 350 is applied to the flow sensor fitting portion 110 and the temperature sensor fitting portion 120 is inserted into the fitting hole. However, It is needless to say that various structures that can be combined from the outside can be applied in consideration of the structure of the unit 300 and the temperature sensor unit 400.

The module body 100, the flow sensor fitting portion 110, and the temperature sensor fitting portion 120 are preferably formed of a synthetic resin material and integrally molded, but are not limited thereto.

2 and 3, the check valve 200 is inserted into the module body 100 to prevent the fluid from flowing backward. In detail, the check valve 200 includes a valve body 210, a check plate 220, an elastic portion 230, a support portion 240, and a hermetic member 250.

The outer peripheral side surface shape of the valve body 210 corresponds to the shape of the inner peripheral surface of the module main body 100 so that the valve body 210 can be closely fitted on the inner peripheral surface of the module main body 100 in a tubular shape, Is formed in the valve body 211. The valve body 211 is formed with a valve body 211,

Here, the valve body 210 may be fitted and fixed to the module body 100, but may be detachably fitted to the module body 100. In order to achieve this, the inner surface of the module body 100 is formed with a narrowing protrusion or a narrow channel corresponding to the flow of the air, so as to prevent the valve body 210 from falling downward, So that it is not released to the outside through the coupling part 500. Since the check valve 200 is manufactured separately from the module main body 100, it can be easily repaired and replaced without replacing the entirety of the integrated type sensor module 700 at the time of repair, thereby simplifying maintenance. As well as cost savings.

The valve body 210 has a bell mouth 211 formed to be inclined rearward inward along a front outer circumferential end. The bell mouth 211 allows one side of the check plate 220 to be closely contacted to an end exposed while simultaneously guiding the inflow fluid.

The check plate 220 has a disk shape corresponding to the inner circumferential surface shape of the valve body 210 and is slidably provided in the valve passage 211 to open and close the valve passage 211 according to the sliding movement do.

The check plate 220 is provided at its rear center with a rod-shaped support shaft 221 protruding in a direction corresponding to the direction of the valve channel 211, (Not shown).

The elastic portion 230 is fitted to the support shaft 221 at the rear of the check plate 220 as an elastic spring and is elastically supported in one direction in which the check plate 220 is in close contact with the bell mouth 211 . The elastic part 230 may be disposed between the locking part 222 and the supporting part 240. The locking part 222 may be disposed between the locking part 222 and the supporting part 240 in consideration of the compression or tensile force of the elastic part 230, The check plate 220 may be attached to the rear surface thereof. The elastic part 230 may be an elastic spring as shown, but other configurations other than the elastic spring may be used as long as the above objects can be achieved.

4, the support part 240 is provided at the rear of the elastic part 230 and supports the elastic part 230 by engaging with the valve body 210. The spring supporting part 241 And a support piece 242. The spring support portion 241 supports the elastic portion 230 in a ring shape corresponding to the shape of the elastic portion 230 and is located on the valve flow passage 211 and supports the elastic portion 230 Is slidably inserted.

A plurality of support pieces 242 are radially spaced from each other around the spring support portion 241 in the circumferential direction and one end is coupled to the inner circumferential surface of the valve body 210 and the other end is coupled to the spring support portion 241 To the outer surface.

The hermetic member 250 is coupled to an outer circumferential surface of the valve body 210 to maintain airtightness with the module body 100, and a known O-ring or the like can be applied.

5, when the flow of the fluid flowing through the valve passage 211 flows in the one direction, the check valve 220 is moved in the direction of the bell- (211) and closes the valve flow path (211). However, when the flow of the fluid flowing through the valve passage 211 flows in the other direction, the check valve 200 compresses the elastic portion 230 at a fluid flow rate as shown in FIG. 6, The plate 220 is separated from the bell mouth 211 so that the valve channel 211 is opened.

7, the flow sensor unit 300 is disposed in the flow path 101 and senses the flow of the fluid. The flow sensor unit 300 includes a rotation unit 310, a sensor body 320, 330, and a flow rate communication unit 340. The rotation unit 310 has a structure that is shaft-coupled to a rotation axis 311 rotatably coupled to the sensor body 320 in a structure similar to an aberration and is disposed on the flow passage 101 and rotates according to the flow of the fluid .

The sensor body 320 is fitted to the flow sensor fitting portion 110 and rotatably supports the rotation shaft 311. The sensor body 320 receives the sensing unit 330 that senses the rotation of the rotation unit 310 therein. The sensing unit 330 is provided in the sensor body 320 and senses the rotation of the rotation unit 310. The detailed description thereof is omitted because it is similar to that of a known rotation sensing sensor .

The flow communication unit 340 is connected to the sensing unit 330 and transmits the fluid flow information to the control unit. The communication unit 340 includes a communication line and a communication cable. However, this is a preferred embodiment, and various configurations can be applied as long as the above objects such as wired or wireless can be achieved.

The temperature sensor unit 400 is disposed in the flow path 101 so as to be spaced apart from the flow sensor unit 300 and senses the temperature of the fluid. Here, the temperature sensor unit 400 is similar to a temperature sensor that senses a temperature of a known fluid, and thus a detailed description thereof will be omitted.

The coupling part 500 is provided at an upper end and a lower end of the module main body 100 and is detachably coupled to the piping. The coupling part 500 is fastened to the outer circumferential surface of the upper end part and the outer circumferential surface of the lower end part of the module main body 100, It is in the form of a connection socket which is detachably inserted and connected. Here, a well-known grip ring, a washer, an O-ring, etc. are provided between the end of the module main body 100 and the connection socket, and a detailed description of such a configuration is widely applied in the same field and will not be described in detail .

8, the integrated sensor module 700 includes a nozzle member (not shown) that is detachably fitted on the flow path 101 of the module main body 100 in a tubular shape in front of the flow sensor unit 300 600).

The nozzle member 600 is formed to have a diameter gradually decreasing gradually toward the flow rate sensor unit 300 and collects the flowing fluid so that the flow rate sensor unit 300 senses the flow rate of the minute flow rate It is the role of

In the figure, the integral type sensor module 700 includes the check valve 200 disposed at the foremost position and the flow sensor portion 300 and the temperature sensor portion 400 disposed in a rearward sequence However, it is a matter of course that it is possible to vary the arrangement order according to the design in the preferred embodiment.

In the figure, the integrated type sensor module 700 includes a case where the check valve 200, the flow rate sensor part 300 and the temperature sensor part 400 are applied to the module body 100 as an embodiment The flow sensor unit 300 and the temperature sensor unit 400 may be selectively applied to the check valve 200, the flow sensor unit 300, and the temperature sensor unit 400, respectively. In this case, The cap may be coupled to the sensor fitting portion 110 and the temperature sensor fitting portion 120 to seal the cap.

As described above, the integrated type sensor module 700 is easy to be coupled to the existing pipe by the coupling part 500, and the check valve 200, the flow rate sensor part 300, Since the temperature sensor unit 400 is integrally formed as one set, it is not necessary to separately install each sensor and the installation work can be simplified and the workability can be improved. In addition, the integrated type sensor module 700 may be integrally formed to reduce the cost of manufacturing parts, thereby improving the economical efficiency.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100 ... module body 110 ... flow sensor fitting portion
120 ... Temperature sensor fitting part 200 ... Check valve
210 ... valve body 220 ... check plate
230 ... elastic portion 240 ... support portion
250 ... sealing member 300 ... flow sensor unit
310 ... rotation part 320 ... sensor body
330 ... sensing unit 340 .. flow communication unit
400: temperature sensor part 500: fastening part
600 ... Nozzle member 700 ... Integrated sensor module

Claims (10)

delete An integrated type sensor module provided on a cold / hot water pipe,
A module body having a tubular shape and having a flow path through which fluid flows;
A check valve inserted into the module body to prevent the fluid from flowing backward; And
And a fastening portion provided at an upper end portion and a lower end portion of the module body and detachably coupled to the pipe,
The check valve
A check valve slidably provided in the valve passage for opening and closing the valve passage according to a sliding movement of the valve body; An elastic portion for elastically supporting the check plate in the one direction from the rear of the check plate, a support portion provided at the rear of the elastic portion and coupled with the valve body to support the elastic portion, And a hermetic member that maintains airtightness with the module body,
When the flow of the fluid flowing through the valve channel flows in the one direction, the check valve closes the valve channel, and when the flow of the fluid flowing through the valve channel flows in the other direction, Thereby opening and closing the valve channel. The method of claim 2,
The support portion
A spring support portion supporting the elastic portion and positioned on the valve flow passage,
And one end of the support body is coupled to an inner circumferential surface of the valve body and the other end is coupled to an outer surface of the spring support portion and is arranged radially spaced apart from the spring support portion. An integrated type sensor module provided on a cold / hot water pipe,
A module body having a tubular shape and having a flow path through which fluid flows;
A check valve inserted into the module body to prevent the fluid from flowing backward; And
And a fastening portion provided at an upper end portion and a lower end portion of the module body and detachably coupled to the pipe,
The fastening portion
A connecting socket fastened to the outer circumferential surface of the upper end of the module body and the outer circumferential surface of the lower end of the module body,
A grip ring provided between an end of the module body and the connection socket,
A washer provided closely to one side of the grip ring,
And an O-ring provided on one side of the washer. An integrated type sensor module provided on a cold / hot water pipe,
A module body having a tubular shape and having a flow path through which fluid flows;
A check valve inserted into the module body to prevent the fluid from flowing backward;
A fastening portion provided at an upper end portion and a lower end portion of the module main body and detachably coupled to the piping;
A flow sensor provided in the flow path and sensing a flow of the fluid; And
And a temperature sensor unit provided in the flow path so as to be spaced apart from the flow sensor unit and sensing a temperature of the fluid. An integrated type sensor module provided on a cold / hot water pipe,
A module body having a tubular shape and having a flow path through which fluid flows;
A check valve inserted into the module body to prevent the fluid from flowing backward; And
And a fastening portion provided at an upper end portion and a lower end portion of the module body and detachably coupled to the pipe,
The module body includes:
A flow sensor connecting portion communicating with the flow path and having a flow sensor portion fitted to one side of the outer circumference,
And a temperature sensor fitting portion to which the temperature sensing sensor portion is fitted to one side of the outer circumference so as to be spaced apart from the flow sensor fitting portion. The method of claim 6,
Wherein the flow sensor unit comprises:
A rotating part that rotates according to the flow of the fluid,
A sensor body fitted into the flow sensor fitting portion and rotatably supporting the rotation portion,
A sensing unit provided in the sensor body and measuring the number of revolutions of the rotation unit,
And a flow communication unit connected to the sensing unit to transmit flow information of the fluid. The method of claim 6,
The flow sensor fitting portion
And the sensor body is detachably coupled to the sensor body by the coupling means. The method of claim 8,
Wherein the coupling means comprises:
A first flange portion extending from an exposed end of the flow sensor fitting portion,
A second flange portion integrally formed with the sensor body in a shape corresponding to the first flange portion,
And a fastening portion for fastening the first flange portion and the second flange portion to each other. The method of claim 5,
The flow sensor unit is formed in a tubular shape so as to be detachably fitted on the flow path of the module body in front of the flow rate sensor unit and has a diameter gradually decreasing gradually toward the flow rate sensor unit so that the flow rate sensor unit can detect the minute flow rate Wherein the nozzle member comprises a nozzle member.

Images